/*
 * Copyright (c) 2017 Lawrence Livermore National Laboratory
 *
 * SPDX-License-Identifier: GPL-2.0-only
 *
 * Author: Gustavo Carneiro <gjc@inescporto.pt>
 * Author: Peter D. Barnes, Jr. <pdbarnes@llnl.gov>
 */

/**
 * @file
 * @ingroup core-examples
 * @ingroup logging
 * Example program that demonstrates ShowProgress.
 */

/**
 * Example program that demonstrates ShowProgress.
 *
 */

#include "ns3/core-module.h"

#include <chrono>
#include <iomanip>
#include <string>
#include <thread>

using namespace ns3;

NS_LOG_COMPONENT_DEFINE("SampleShowProgress");

namespace
{

/**
 * Execute a function periodically,
 * which takes more or less time to run.
 *
 * Inspired by PHOLD.
 */
class Hold : public SimpleRefCount<Hold>
{
  public:
    /**
     * Create a Hold with mean inter-event time \pname{wait},
     * changing workload every \pname{interval}.
     * @param wait The mean inter-event time.
     * @param interval How often to change work load.  This
     *                 should be an order of magnitude larger than \pname{wait}.
     */
    Hold(Time wait, Time interval)
    {
        m_wait = wait;
        m_interval = interval;

        m_rng = CreateObject<ExponentialRandomVariable>();
        m_rng->SetAttribute("Mean", DoubleValue(m_wait.GetSeconds()));
    }

    /**
     * Create a hold with a specified random number generator for the
     * \pname{wait} time.  The RNG value will be interpreted as seconds.
     * @param rng The random variable generator to use for the inter-event time.
     */
    Hold(Ptr<RandomVariableStream> rng)
        : m_rng(rng)
    {
    }

    /** The Hold event. */
    void Event()
    {
        double delta = m_rng->GetValue();
        Time delay = Seconds(delta);
        NS_LOG_LOGIC("event delay: " << delay);

        Simulator::Schedule(delay, &Hold::Event, this);

        // Switch work load every 10 * m_interval of simulation time
        int64x64_t ratio = (Simulator::Now() / m_interval) / 10;
        bool even = (ratio.GetHigh() % 2);
        Time work = m_wait * (even ? 3 : 1);
        std::this_thread::sleep_for(std::chrono::nanoseconds(work.GetNanoSeconds()));
    }

  private:
    /** The random number generator for the interval between events. */
    Ptr<RandomVariableStream> m_rng;
    /** Mean inter-event time. */
    Time m_wait;
    /** Time between switching workloads. */
    Time m_interval;

    // end of class HOLD
};

} // unnamed namespace

int
main(int argc, char** argv)
{
    Time stop = Seconds(100);
    Time interval = Seconds(10);
    Time wait = MilliSeconds(10);
    bool verbose = false;

    CommandLine cmd(__FILE__);
    cmd.AddValue("stop", "Simulation duration in virtual time.", stop);
    cmd.AddValue("interval", "Approximate reporting interval, in wall clock time.", interval);
    cmd.AddValue("wait", "Wallclock time to burn on each event.", wait);
    cmd.AddValue("verbose", "Turn on verbose progress message.", verbose);
    cmd.Parse(argc, argv);

    std::cout << "\n"
              << cmd.GetName() << ":\n"
              << "\n"
              << "verbose progress message:  " << (verbose ? "on\n" : "off\n")
              << "target reporting interval: " << interval.As(Time::S) << "\n"
              << "average event sleep time:  " << wait.As(Time::MS) << "\n"
              << "total simulation run time: " << stop.As(Time::S) << std::endl;

    Ptr<Hold> h = Create<Hold>(wait, interval);
    h->Event();

    Simulator::Stop(stop);
    ShowProgress spinner(interval);
    spinner.SetVerbose(verbose);

    Simulator::Run();
    Simulator::Destroy();

    return 0;
}
